对先导柴油点燃甲烷/空气混合物的单区和多区火焰传播及燃烧特性的光学研究

Zechuan Cui, Jiangping Tian, Xiaolei Zhang, Mingyuan Ye, Kaile Wei, Peng Wang, Song Shi
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引用次数: 0

摘要

使用光学 RCEM 试验台研究了单次和多次柴油喷射点燃贫甲烷/空气混合物的燃烧特性。实验方法包括火焰自然发光摄影、压力数据采集和热释放分析。结果表明,在单柴油和双燃料燃烧模式下,点火延迟与喷口直径的关系各不相同。在双燃料模式下,增加单孔喷嘴的孔径可减少点火延迟,加速火焰传播,提高热释放率。增加喷口数量使火焰区域成倍增加,扩大了火焰传播途径,增强了火焰之间的促进作用,从而加快了火焰传播速度,提高了热量释放率。孔口轴角对点火位置和火焰传播方向有很大影响。合适的轴角可缩短火焰传播距离,优化火焰传播方向,并减轻火焰间的阻碍效应。
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Optical study on the single and multiple regions of flame propagation and combustion characteristics of methane/air mixture ignited by pilot diesel
The combustion characteristics of lean methane/air mixtures ignited by single and multiple diesel sprays were investigated using an optical RCEM test bench. The experimental approach included flame natural luminescence photography, pressure data acquisition, and heat release analysis. The results revealed that the relationships of ignition delay and orifice diameter varied under single diesel and dual fuel combustion mode. Under dual fuel mode, increasing the orifice diameter of the single-orifice nozzle resulted in a reduction in ignition delay, an acceleration in flame propagation, and an increase in the heat release rate. Increasing the number of orifices multiplied the flame regions, expanded the flame propagation pathways, and enhanced the promoting effect between the flames, resulting in faster flame propagation and increased heat release. The orifice axis angle significantly affected the ignition position and flame propagation direction. An appropriate axis angle would shorten the flame propagation distance, optimize the flame propagation direction and mitigate the impediment effect between flames.
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来源期刊
CiteScore
4.40
自引率
17.60%
发文量
263
审稿时长
3.5 months
期刊介绍: The Journal of Automobile Engineering is an established, high quality multi-disciplinary journal which publishes the very best peer-reviewed science and engineering in the field.
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